Low profile compact tool carriers

ABSTRACT

Compact tool carriers having a loader mounted to a low-profile mainframe are disclosed. In some embodiments, the pivot points of the mainframe about which the loader is pivoted are low relative to the mainframe to reduce the mainframe size and to lower the center of gravity to improve the stability of the compact tool carrier during use.

CROSS-REFERENCE TO RELATED APPLICATION

This application claims the benefit of U.S. Provisional Patent Application No. 62/118,860, filed Feb. 20, 2015, which is incorporated herein by reference in its entirety.

FIELD OF THE DISCLOSURE

The field of the disclosure relates to compact tool carriers having a loader mounted to a low-profile mainframe.

BACKGROUND

Compact tool carriers are tool-mounted machines that are capable of working in tight spaces for utility or do-it-yourself home projects. Compact tool carriers are walk-behind units or include a platform on which the operator may stand during use. Compact tool carriers are generally defined (e.g., ISO 6165 (2012) and SAE J2752) as “a self-propelled crawler or wheeled machine having an operating mass of less than 1500 kg with a rigid frame, having either a pedestrian operating position or a standing operator platform at the rear of the machine and either front-mounted interchangeable equipment or lift arms with an attachment bracket capable of coupling to interchangeable, front-mounted attachments.” The tool carriers may be attached to a variety of interchangeable tools such as buckets, augers, forks, stump grinders, tillers, rollers and the like.

Compact tool carriers may be distinguished from much larger conventional skid steers in which an operator is seated in the operating position. Compact tool carriers pose difficulty in design relative to full-size skid steers due to variation in weight, complexity and size.

A continuing need exists for compact tool carriers with a relatively low-profile, compact design and/or that are characterized by a more effective loader lifting profile.

This section is intended to introduce the reader to various aspects of art that may be related to various aspects of the disclosure, which are described and/or claimed below. This discussion is believed to be helpful in providing the reader with background information to facilitate a better understanding of the various aspects of the present disclosure. Accordingly, it should be understood that these statements are to be read in this light, and not as admissions of prior art.

SUMMARY

One aspect of the present disclosure is directed to a compact tool carrier configured for standing or walk-behind operator control. The carrier has a mass of less than about 1500 kg and includes a loader having an arm and a linkage pivotally attached to the loader arm. An actuator is pivotally attached to the loader arm. The carrier includes a control station having operator controls for propelling the compact tool carrier forward and for raising and lowering the loader. The control station is configured for remote operation or is mounted toward the rear of the compact tool carrier and is adapted to allow for standing or walk-behind operation.

Another aspect of the present disclosure is directed to a compact tool carrier. The carrier comprises a loader and a mainframe for supporting the loader. The mainframe has a first side and a second side with each side having a top and a bottom. The first side of the mainframe has at least two pivot points relative to the loader. The carrier includes a drive mechanism comprising tracks or wheels for propelling the apparatus over a supporting surface. The drive mechanism is attached to the mainframe about a rotational axis. The compact tool carrier has a bottom at which the drive mechanism contacts the supporting surface. The rotational axis and bottom of the compact tool carrier are separated by a vertical distance D1. The rotational axis and each pivot point are separated by a vertical distance. Each vertical distance between the rotational axis and a pivot point is less than 1.5 times D1.

Various refinements exist of the features noted in relation to the above-mentioned aspects of the present disclosure. Further features may also be incorporated in the above-mentioned aspects of the present disclosure as well. These refinements and additional features may exist individually or in any combination. For instance, various features discussed below in relation to any of the illustrated embodiments of the present disclosure may be incorporated into any of the above-described aspects of the present disclosure, alone or in any combination.

BRIEF DESCRIPTION OF THE DRAWINGS

FIG. 1 is a perspective view of a compact tool carrier with the loader in a down position;

FIG. 2 is a side view of the compact tool carrier with the loader in a down position;

FIG. 3 is a side view of the compact tool carrier with the loader in a raised position;

FIG. 4 is a perspective view of a mainframe of the compact tool carrier;

FIG. 5 is a side view of the mainframe and loader of the compact tool carrier;

FIG. 6 is a cross-section side view of the mainframe; and

FIG. 7 is an exploded perspective view of the mainframe and an upper frame of the compact tool carrier.

Corresponding reference characters indicate corresponding parts throughout the drawings.

DETAILED DESCRIPTION

An embodiment of a compact tool carrier is generally referred as “5” in FIG. 1. The compact tool carrier 5 includes a loader 8 supported by a mainframe 10. The loader 8 includes an attachment plate 12 for interchangeably attaching any one of a number of tools (not shown). In this regard, such interchangeable tools do not form part of the compact tool carrier 5 unless stated otherwise. The attachment plate 12 is connected to an actuator 14 for tilting of tools connected to the attachment plate 12. The loader 8 has a first arm 15 a and a second arm 15 b generally opposite the first arm 15 a. Each arm 15 a, 15 b may be a single weldment or may include various components attached by fasteners (e.g., nuts and bolts). The first and second arms 15 a, 15 b each include a bracket portion 17 a, 17 b (FIG. 1) for fastening various linkages.

As used herein, “compact tool carrier” refers to machines that are self-propelled and are capable of carrying interchangeable equipment and that generally have a mass (not including the interchangeable tool) of less than about 1500 kg (about 3307 lb). Use of the term “compact tool carrier” herein is intended to exclude full size skid steers (e.g., seat-operated units) due to a large variation in weight, complexity and size. In some embodiments, the compact tool carrier 5 meets the definition of a compact tool carrier provided in ISO 6165 (2012) and SAE J2752 set forth above, both standards being incorporated herein by reference for all relevant and consistent purposes.

The compact tool carrier 5 includes a longitudinal axis A that is parallel to the direction of travel of the carrier (i.e., parallel to its length). The compact tool carrier 5 is generally longitudinally symmetrical (i.e., relative to the longitudinal axis A) in that several components have a corresponding component with the same function opposite the component (i.e., across the axis A). Corresponding components of the pair may be indicated herein by use of a reference number followed by “A” and “B” and may be referred to as a “first” component and a “second” component, respectively. While the compact tool carrier 5 may be described herein with reference to the components of one side of the compact tool carrier 5, any component designated by “A” or “B” herein or shown in FIGS. 1-7 includes a corresponding component with the same function opposite the component.

The compact tool carrier 5 includes a drive mechanism 18 attached to the mainframe 10. In the illustrated embodiment, the drive mechanism 18 is directly mounted (i.e., connected without intermediary parts) to the mainframe 10 by way of drive sprocket 22 connected to a hub 26 (FIG. 2). The hub 26 is attached to a shaft (not shown) that extends through a drive opening 30 (FIG. 4) of the mainframe 10. The sprocket 22, hub 26 and shaft (not shown) rotate about a rotational axis R (FIG. 5). As shown, the drive mechanism 18 includes tracks 34. In other embodiments, the drive mechanism 10 includes wheels.

The compact tool carrier 5 includes a control station 36 (FIG. 1) which may include controls (not all controls being shown) for propelling the compact tool carrier 5 forward and/or for raising and lowering the loader 8. The control station 36 may be mounted toward the rear of the compact tool carrier 5 (i.e., opposite the attachment plate 12) and is generally adapted to allow for standing or walk-behind operation. As used herein, “standing operation” generally refers to operation in which the operator stands on a platform attached to the compact tool carrier while “walk-behind operation” generally refers to operation in which the operator stands on the surface supporting the compact tool carrier 5. In the illustrated embodiment, the compact tool carrier 5 includes an operator platform 37 (FIG. 2).

In embodiments in which the compact tool carrier 5 includes an operator platform 37 for standing operation, the difference between the height of the control station 36 (e.g., as measured from the highest control for operating the loader or propelling the apparatus forward) and the platform 37 may be at least about 90 cm (e.g., from about 90 cm to about 130 cm). In embodiments in which the operator walks behind the compact tool carrier 5, the control station 36 may be at least about 90 cm (e.g., from about 90 cm to about 130 cm) from the surface supporting the compact tool carrier. Such a range generally complies with the zones of comfort and reach for controls in earth-moving equipment set forth in ISO 6682 (2008) as determined from the physical dimensions of operators and minimum operator space envelope as set forth in ISO 3411 (2007), both of which are incorporated herein by reference for all relevant and consistent purposes.

In the illustrated embodiment, the control station 36 is attached to an upper frame 39 (FIG. 7) that is attached and supported by the mainframe 10. In other embodiments, rather than being integrated as one unit in the compact tool carrier 5, the control station 36 is separate from the body (e.g., mainframe) of the carrier and is operated remotely. In such embodiments, the control station 36 may be wired or may operate wirelessly to propel the carrier 5 and/or raise and lower the loader 8.

The mainframe 10 includes a first side 38 a and a second side 38 b generally opposite the first side 38 a. As used herein, the term “mainframe” generally refers to a single weldment to which the loader 8 is attached, optionally through one or more pivotal linkages. The mainframe 10 includes bracket portions 40 a, 40 b (FIG. 4) through which various pivot linkages are attached. In the illustrated embodiment, the engine (not shown) and the drive mechanism 18 comprising tracks or wheels are directly connected to the mainframe 10.

The first loader arm 15 a is pivotally connected to the first side 38 a of the mainframe 10, and the second loader arm 15 b is pivotally connected to the second side 38 b of the mainframe 10. The loader arms 15 a, 15 b and sides 38 a, 38 b of the mainframe 10 each include three pivot points for pivoting the loader 8 relative to the mainframe 10. The first side 38 a of the mainframe 10 includes a forward pivot point P₁ (FIG. 5) a rear pivot point P₃ and a central pivot point P₂ between the forward pivot point P₁ and the rear pivot point P₃. Similarly, the first arm 15 a includes a forward pivot point P₄, a rear pivot point P₆ and a central pivot point P₅ between the forward pivot point P₄ and the rear pivot point P₆. The compact tool carrier 5 includes a first forward linkage 46 a attached to the first side 38 a of the mainframe 10 at its forward pivot point P₁ and attached to the first arm 15 a at its forward pivot point P₄. A first rear linkage 50 a is attached to the first side 38 a of the mainframe 10 at its rear pivot point P₃ and is attached to the first arm 15 a of the loader 8 at its rear pivot point P₆. While the carrier 5 is shown with two loader linkages 46 a, 50 a on each side of the carrier 5, in other embodiments the carrier 5 includes a single linkage.

An actuator 54, shown as a hydraulic cylinder, is attached to the first side 38 a of the mainframe 10 at its center pivot point P₄ and is attached to the loader arm 15 a at its center pivot point P₅ to raise the loader 8. The compact tool carrier 5 may include a single actuator 54, or, as in other embodiments, a second actuator (not shown) is connected to the second side 38 b (FIG. 4) of the mainframe 10 and the second arm 15 b (FIG. 1). The actuator 54 is powered to raise the loader 8 and, in some embodiments, is also powered to lower the loader 8 (as opposed to a one-way actuator lowered by gravity alone).

The second side 38 b (FIG. 4) of the mainframe 10 may include a forward pivot point and a rear pivot point to which a second forward linkage 46 b (FIG. 1) and second rear linkage (not shown) are respectively attached. The second arm 15 b may also include a forward pivot point and rear pivot point to which the second forward linkage 46 b and second rear linkage are attached. In embodiments in which the compact tool carrier 5 includes a second actuator (not shown), the second side 38 b of the mainframe 10 includes a central pivot point between its forward pivot point and its rear pivot point, and the second arm 15 b also includes a central pivot point between its forward pivot point and its rear pivot point. The second cylinder may be attached to the central pivot point of the second side 38 b of the mainframe 10 and the central pivot point of the second arm 15 b.

In some embodiments, the first and second ends 38 a, 38 b of the mainframe 10 and the first and second loader arms 15 a, 15 b do not include more than three pivot points at which the mainframe 10 and loader 8 pivot relative to each other. While the actuator 54 is shown as being attached between the other two linkages 46 a, 50 a, in other embodiments the actuator 54 is forward to both linkages 46 a, 50 a or rearward to both linkages 46 a, 50 a. Further, each side of the carrier 5 having an actuator 54 may include a single linkage rather than two linkages.

In some embodiments, the mainframe 10 is characterized by a relatively low profile (i.e., the pivot points are positioned relatively low on the mainframe allowing its height to be reduced). The rotational axis R (FIG. 5) and the bottom of the compact tool carrier 5 (FIG. 2) are separated by a distance D1. Generally, the bottom of the compact tool carrier 5 corresponds to the point at which the drive mechanism 18 contacts the surface supporting the compact tool carrier 5. The rotational axis R and the forward pivot point P₁ of the first side 38 a of the mainframe 10 are separated by a vertical distance D2. The rotational axis R and the rear pivot point P₃ are separated by a vertical distance D3. The rotational axis R and the central pivot point P₄ are separated by a vertical distance D4. Each of D2, D3 and D4 is less than about 1.5 times D1 (1.5×D1). In some embodiments, each of D2, D3 and D4 is less than D1 or even less than about 0.75 times D1 (0.75×D1).

The mainframe 10 profile may also be expressed relative to the distance D5 between the rotational axis R (FIG. 5) and the bottom 57 of the mainframe 10. Each of D2, D3 and D4 is less than about twice D5 (2×D5). In some embodiments, each of D2, D3 and D4 is less than about 1.75 times D5 (1.75×D5) or less than about 1.5 times D5 (1.5×D5). P2 and P3 may be relatively lower than P1 and their distances D3, D4 from the rotational axis R may be even less than about 1.25 times D5 (1.25×D5). The distance D6 between the top 59 of the first side 38 a of the mainframe 10 and the highest pivot point (P₁ in the illustrated embodiment), is less than about 1.5 times D5, less than about D5 or less than about 0.75 times D5.

The second side 38 b (FIG. 1) of the mainframe 10 may have a similar pivot point arrangement. The rotational axis R and the forward pivot point of the second side 38 b are separated by a vertical distance D2′ (not shown). The rotational axis R and the rear pivot point of the second side are separated by a vertical distance D3′ (not shown). The rotational axis R and the central pivot point (if any) of the second side 38 b of mainframe 10 are separated by a vertical distance D4′ (not shown). Each of D2′, D3′ and D4′ is less than about 1.5 times D1 (1.5×D1) or less than D1 or even less than about 0.75 times D1 (0.75×D1). The rotational axis R and the bottom of the second side 38 b of the mainframe 10 are separated by a vertical distance D5′ (not shown). Each of D2′, D3′ and D4′ is less than twice D5′ (2×D5′) or less than about 1.75 times D5′ (1.75×D5′) or less than about 1.5 times D5′ (1.5×D5′). D3′ and D4′ may be even less than about 1.25 times D5′ (1.25×D5′). The distance D6′ between the top of the second side 38 b of the mainframe 10 and the highest pivot point is less than about 1.5 times D5′, less than about D5′ or less than about 0.75 times D5′.

The compact tool carrier 5 includes an engine (not shown) for propelling the drive mechanism 18. As shown in FIG. 6, the engine may be mounted to an engine bracket 60 that forms part of the mainframe 10. The engine may drive a hydraulic pump that powers hydraulic motors (not shown) which drive the drive mechanism 18 (FIG. 1) and which provide hydraulic power to actuator 54. The mainframe 10 includes a reservoir 64 for storing and cycling of hydraulic fluid.

Compared to conventional compact tool carriers, embodiments of the compact tool carrier 5 described above have several advantages. By positioning the pivot points relatively low on the mainframe 10, the mass of the mainframe 10 and the resulting cost of the carrier 5 may be reduced. Further, such a low-profile mainframe 10 improves visibility for the operator and allows the center of gravity of the carrier 5 to be lowered which improves its stability. In embodiments in which the carrier 5 includes an actuator 54 (FIG. 5) for lifting the loader 8 that is disposed between forward linkage 46 a and a rear linkage 50 a on at least one side 38 a, 38 b of the mainframe 10, the loader 8 is characterized by an travel path in which the loader travels vertically rather than over a radial path. The vertical travel path of the loader 8 is more effective relative to conventional travel paths for compact tool carriers 5 as the carrier 5 may operate closer to other structures.

As used herein, the terms “about,” “substantially,” “essentially” and “approximately” when used in conjunction with ranges of dimensions, concentrations, temperatures or other physical or chemical properties or characteristics is meant to cover variations that may exist in the upper and/or lower limits of the ranges of the properties or characteristics, including, for example, variations resulting from rounding, measurement methodology or other statistical variation.

When introducing elements of the present disclosure or the embodiment(s) thereof, the articles “a”, “an”, “the” and “said” are intended to mean that there are one or more of the elements. The terms “comprising,” “including,” “containing” and “having” are intended to be inclusive and mean that there may be additional elements other than the listed elements. The use of terms indicating a particular orientation (e.g., “top”, “bottom”, “side”, etc.) is for convenience of description and does not require any particular orientation of the item described.

As various changes could be made in the above constructions and methods without departing from the scope of the disclosure, it is intended that all matter contained in the above description and shown in the accompanying drawing[s] shall be interpreted as illustrative and not in a limiting sense. 

What is claimed is:
 1. A compact tool carrier configured for standing or walk-behind operator control and having a longitudinal axis and a mass of less than about 1500 kg, the compact tool carrier comprising: a loader having an arm, the loader being adapted to carry a tool; a mainframe for supporting the loader, the mainframe having a first side and a second side, and having a front end and a rear end relative to the longitudinal axis, the mainframe comprising an engine bracket that extends from the first side toward the second side for mounting an engine to the mainframe, the engine bracket being spaced from the rear end of the mainframe, the loader arm not being directly attached to the mainframe; a linkage pivotally attached to the first side of the mainframe and pivotally attached to the loader arm; an actuator pivotally attached to the first side of the mainframe and pivotally attached to the loader arm; and a control station having operator controls for propelling the compact tool carrier forward and for raising and lowering the loader, the control station being mounted toward the rear of the compact tool carrier and adapted to allow for standing or walk-behind operation.
 2. The compact tool carrier as set forth in claim 1 wherein the mainframe incorporates a single weldment.
 3. The compact tool carrier as set forth in claim 1 wherein the loader arm is a first loader arm and the linkage is a first linkage, the loader comprising a second loader arm and the compact tool carrier comprising a second linkage pivotally attached to the second side of the mainframe and pivotally attached to the second loader arm.
 4. The compact tool carrier as set forth in claim 3 wherein the actuator is a first actuator, the compact tool carrier comprising a second actuator, the second actuator being pivotally attached to the second side of the mainframe and pivotally attached to the second loader arm.
 5. The compact tool carrier as set forth in claim 1 comprising a drive mechanism comprising tracks or wheels, the drive mechanism being attached to the mainframe.
 6. The compact tool carrier as set forth in claim 1 comprising an engine to propel a drive mechanism, the engine being attached to the engine bracket.
 7. The compact tool carrier as set forth in claim 1 wherein the actuator is a hydraulic cylinder.
 8. The compact tool carrier as set forth in claim 1 wherein each loader arm incorporates a single weldment.
 9. The compact tool carrier as set forth in claim 1 wherein the control station is mounted toward the rear of the compact tool carrier, the compact tool carrier comprising an operator platform for standing operation of the compact tool carrier, the difference between the height of the control station and the height of the platform being at least 90 cm.
 10. The compact tool carrier as set forth in claim 1 wherein the control station is mounted toward the rear of the compact tool carrier, and the height of the control station from a surface supporting the compact tool carrier is at least 90 cm.
 11. A method for operating the compact tool carrier as set forth in claim 1, the method comprising standing behind the compact tool carrier and operating the control station to propel the compact tool carrier forward and/or raise or lower the loader.
 12. The method as set forth in claim 11 wherein the control station is operated while standing on an operator platform or while standing on a surface supporting the compact tool carrier.
 13. The compact tool carrier as set forth in claim 1 further comprising a tool attached to the loader, the tool being selected from the group consisting of a bucket, auger, fork, stump grinder, tiller and roller.
 14. The compact tool carrier as set forth in claim 1 wherein a single linkage is attached to the first side of the mainframe and pivotally attached to the loader arm.
 15. A compact tool carrier comprising: a loader adapted to carry a tool; a mainframe for supporting the loader, the mainframe having a first side and a second side, and having a front end and a rear end relative to the longitudinal axis, the mainframe comprising an engine bracket that extends from the first side toward the second side for mounting an engine to the mainframe, the engine bracket being spaced from the rear end of the mainframe, each side having a top and a bottom, the first side of the mainframe having at least two pivot points relative to the loader, the loader not being directly attached to the mainframe; a linkage pivotally attached to the first side of the mainframe at a pivot point and pivotally attached to the loader; an actuator pivotally attached to the first side of the mainframe at a pivot point and pivotally attached to the loader; a drive mechanism comprising tracks or wheels for propelling the compact tool carrier over a supporting surface, the drive mechanism being attached to the mainframe about a rotational axis, the compact tool carrier having a bottom at which the drive mechanism contacts the supporting surface, the rotational axis and bottom of the compact tool carrier being separated by a vertical distance D1, the rotational axis and each pivot point being separated by a vertical distance, each vertical distance between the rotational axis and a pivot point being less than 1.5 times D1; and a control station having operator controls for propelling the compact tool carrier forward and for raising and/or lowering the loader, the control station being mounted toward the rear of the compact tool carrier and adapted to allow for standing or walk-behind operation.
 16. The compact tool carrier as set forth in claim 15 wherein the rotational axis and the pivot point at which the linkage is attached are separated by a vertical distance D2, the rotational axis and the pivot point at which the actuator is attached are separated by a vertical distance D3, both D2 and D3 being less than 1.5 times D1.
 17. The compact tool carrier as set forth in claim 16 wherein the second side of the mainframe comprises two pivot points, each vertical distance between the rotational axis and a pivot point being less than 1.5 times D1.
 18. The compact tool carrier as set forth in claim 16 wherein the rotational axis and the bottom of the first side of the mainframe are separated by a vertical distance D5, both D2 and D3 being less than twice D5.
 19. The compact tool carrier as set forth in claim 18 wherein the first side of the mainframe comprises a top most pivot point, the top most pivot point and the top of the first side of the mainframe being separated by a vertical distance D6, D6 being less than about 1.5 times D5.
 20. The compact tool carrier as set forth in claim 15 further comprising a tool attached to the loader, the tool being selected from the group consisting of a bucket, auger, fork, stump grinder, tiller and roller. 